package Excel::Writer::XLSX::Chart::Scatter;
###############################################################################
#
# Scatter - A class for writing Excel Scatter charts.
#
# Used in conjunction with Excel::Writer::XLSX::Chart.
#
# See formatting note in Excel::Writer::XLSX::Chart.
#
# Copyright 2000-2013, John McNamara, jmcnamara@cpan.org
#
# Documentation after __END__
#
# perltidy with the following options: -mbl=2 -pt=0 -nola
use 5.008002;
use strict;
use warnings;
use Carp;
use Excel::Writer::XLSX::Chart;
our @ISA = qw(Excel::Writer::XLSX::Chart);
our $VERSION = '0.66';
###############################################################################
#
# new()
#
#
sub new {
my $class = shift;
my $self = Excel::Writer::XLSX::Chart->new( @_ );
$self->{_subtype} = $self->{_subtype} || 'marker_only';
$self->{_cross_between} = 'midCat';
$self->{_horiz_val_axis} = 0;
$self->{_val_axis_postion} = 'b';
bless $self, $class;
return $self;
}
##############################################################################
#
# _write_chart_type()
#
# Override the virtual superclass method with a chart specific method.
#
sub _write_chart_type {
my $self = shift;
# Write the c:scatterChart element.
$self->_write_scatter_chart( @_ );
}
##############################################################################
#
# _write_scatter_chart()
#
# Write the <c:scatterChart> element.
#
sub _write_scatter_chart {
my $self = shift;
my %args = @_;
my @series;
if ( $args{primary_axes} ) {
@series = $self->_get_primary_axes_series;
}
else {
@series = $self->_get_secondary_axes_series;
}
return unless scalar @series;
my $style = 'lineMarker';
my $subtype = $self->{_subtype};
# Set the user defined chart subtype.
$style = 'lineMarker' if $subtype eq 'marker_only';
$style = 'lineMarker' if $subtype eq 'straight_with_markers';
$style = 'lineMarker' if $subtype eq 'straight';
$style = 'smoothMarker' if $subtype eq 'smooth_with_markers';
$style = 'smoothMarker' if $subtype eq 'smooth';
# Add default formatting to the series data.
$self->_modify_series_formatting();
$self->xml_start_tag( 'c:scatterChart' );
# Write the c:scatterStyle element.
$self->_write_scatter_style( $style );
# Write the series elements.
$self->_write_ser( $_ ) for @series;
# Write the c:marker element.
$self->_write_marker_value();
# Write the c:axId elements
$self->_write_axis_ids( %args );
$self->xml_end_tag( 'c:scatterChart' );
}
##############################################################################
#
# _write_ser()
#
# Over-ridden to write c:xVal/c:yVal instead of c:cat/c:val elements.
#
# Write the <c:ser> element.
#
sub _write_ser {
my $self = shift;
my $series = shift;
my $index = $self->{_series_index}++;
$self->xml_start_tag( 'c:ser' );
# Write the c:idx element.
$self->_write_idx( $index );
# Write the c:order element.
$self->_write_order( $index );
# Write the series name.
$self->_write_series_name( $series );
# Write the c:spPr element.
$self->_write_sp_pr( $series );
# Write the c:marker element.
$self->_write_marker( $series->{_marker} );
# Write the c:dPt element.
$self->_write_d_pt( $series->{_points} );
# Write the c:dLbls element.
$self->_write_d_lbls( $series->{_labels} );
# Write the c:trendline element.
$self->_write_trendline( $series->{_trendline} );
# Write the c:errBars element.
$self->_write_error_bars( $series->{_error_bars} );
# Write the c:xVal element.
$self->_write_x_val( $series );
# Write the c:yVal element.
$self->_write_y_val( $series );
# Write the c:smooth element.
$self->_write_c_smooth();
$self->xml_end_tag( 'c:ser' );
}
##############################################################################
#
# _write_plot_area()
#
# Over-ridden to have 2 valAx elements for scatter charts instead of
# catAx/valAx.
#
# Write the <c:plotArea> element.
#
sub _write_plot_area {
my $self = shift;
$self->xml_start_tag( 'c:plotArea' );
# Write the c:layout element.
$self->_write_layout();
# Write the subclass chart type elements for primary and secondary axes
$self->_write_chart_type( primary_axes => 1 );
$self->_write_chart_type( primary_axes => 0 );
# Write c:catAx and c:valAx elements for series using primary axes
$self->_write_cat_val_axis(
x_axis => $self->{_x_axis},
y_axis => $self->{_y_axis},
axis_ids => $self->{_axis_ids},
position => 'b',
);
my $tmp = $self->{_horiz_val_axis};
$self->{_horiz_val_axis} = 1;
$self->_write_val_axis(
x_axis => $self->{_x_axis},
y_axis => $self->{_y_axis},
axis_ids => $self->{_axis_ids},
position => 'l',
);
$self->{_horiz_val_axis} = $tmp;
# Write c:valAx and c:catAx elements for series using secondary axes
$self->_write_cat_val_axis(
x_axis => $self->{_x2_axis},
y_axis => $self->{_y2_axis},
axis_ids => $self->{_axis2_ids},
position => 'b',
);
$self->{_horiz_val_axis} = 1;
$self->_write_val_axis(
x_axis => $self->{_x2_axis},
y_axis => $self->{_y2_axis},
axis_ids => $self->{_axis2_ids},
position => 'l',
);
# Write the c:spPr element for the plotarea formatting.
$self->_write_sp_pr( $self->{_plotarea} );
$self->xml_end_tag( 'c:plotArea' );
}
##############################################################################
#
# _write_x_val()
#
# Write the <c:xVal> element.
#
sub _write_x_val {
my $self = shift;
my $series = shift;
my $formula = $series->{_categories};
my $data_id = $series->{_cat_data_id};
my $data = $self->{_formula_data}->[$data_id];
$self->xml_start_tag( 'c:xVal' );
# Check the type of cached data.
my $type = $self->_get_data_type( $data );
# TODO. Can a scatter plot have non-numeric data.
if ( $type eq 'str' ) {
# Write the c:numRef element.
$self->_write_str_ref( $formula, $data, $type );
}
else {
# Write the c:numRef element.
$self->_write_num_ref( $formula, $data, $type );
}
$self->xml_end_tag( 'c:xVal' );
}
##############################################################################
#
# _write_y_val()
#
# Write the <c:yVal> element.
#
sub _write_y_val {
my $self = shift;
my $series = shift;
my $formula = $series->{_values};
my $data_id = $series->{_val_data_id};
my $data = $self->{_formula_data}->[$data_id];
$self->xml_start_tag( 'c:yVal' );
# Unlike Cat axes data should only be numeric.
# Write the c:numRef element.
$self->_write_num_ref( $formula, $data, 'num' );
$self->xml_end_tag( 'c:yVal' );
}
##############################################################################
#
# _write_scatter_style()
#
# Write the <c:scatterStyle> element.
#
sub _write_scatter_style {
my $self = shift;
my $val = shift;
my @attributes = ( 'val' => $val );
$self->xml_empty_tag( 'c:scatterStyle', @attributes );
}
##############################################################################
#
# _write_c_smooth()
#
# Write the <c:smooth> element.
#
sub _write_c_smooth {
my $self = shift;
my $subtype = $self->{_subtype};
my $val = 1;
return unless $subtype =~ /smooth/;
my @attributes = ( 'val' => $val );
$self->xml_empty_tag( 'c:smooth', @attributes );
}
##############################################################################
#
# _modify_series_formatting()
#
# Add default formatting to the series data unless it has already been
# specified by the user.
#
sub _modify_series_formatting {
my $self = shift;
my $subtype = $self->{_subtype};
# The default scatter style "markers only" requires a line type.
if ( $subtype eq 'marker_only' ) {
# Go through each series and define default values.
for my $series ( @{ $self->{_series} } ) {
# Set a line type unless there is already a user defined type.
if ( !$series->{_line}->{_defined} ) {
$series->{_line} = {
width => 2.25,
none => 1,
_defined => 1,
};
}
}
}
# Turn markers off for subtypes that don't have them.
if ( $subtype !~ /marker/ ) {
# Go through each series and define default values.
for my $series ( @{ $self->{_series} } ) {
# Set a marker type unless there is already a user defined type.
if ( !$series->{_marker}->{_defined} ) {
$series->{_marker} = {
type => 'none',
_defined => 1,
};
}
}
}
}
##############################################################################
#
# _write_d_pt_point()
#
# Write an individual <c:dPt> element. Override the parent method to add
# markers.
#
sub _write_d_pt_point {
my $self = shift;
my $index = shift;
my $point = shift;
$self->xml_start_tag( 'c:dPt' );
# Write the c:idx element.
$self->_write_idx( $index );
$self->xml_start_tag( 'c:marker' );
# Write the c:spPr element.
$self->_write_sp_pr( $point );
$self->xml_end_tag( 'c:marker' );
$self->xml_end_tag( 'c:dPt' );
}
1;
__END__
=head1 NAME
Scatter - A class for writing Excel Scatter charts.
=head1 SYNOPSIS
To create a simple Excel file with a Scatter chart using Excel::Writer::XLSX:
#!/usr/bin/perl
use strict;
use warnings;
use Excel::Writer::XLSX;
my $workbook = Excel::Writer::XLSX->new( 'chart.xlsx' );
my $worksheet = $workbook->add_worksheet();
my $chart = $workbook->add_chart( type => 'scatter' );
# Configure the chart.
$chart->add_series(
categories => '=Sheet1!$A$2:$A$7',
values => '=Sheet1!$B$2:$B$7',
);
# Add the worksheet data the chart refers to.
my $data = [
[ 'Category', 2, 3, 4, 5, 6, 7 ],
[ 'Value', 1, 4, 5, 2, 1, 5 ],
];
$worksheet->write( 'A1', $data );
__END__
=head1 DESCRIPTION
This module implements Scatter charts for L<Excel::Writer::XLSX>. The chart object is created via the Workbook C<add_chart()> method:
my $chart = $workbook->add_chart( type => 'scatter' );
Once the object is created it can be configured via the following methods that are common to all chart classes:
$chart->add_series();
$chart->set_x_axis();
$chart->set_y_axis();
$chart->set_title();
These methods are explained in detail in L<Excel::Writer::XLSX::Chart>. Class specific methods or settings, if any, are explained below.
=head1 Scatter Chart Subtypes
The C<Scatter> chart module also supports the following sub-types:
markers_only (the default)
straight_with_markers
straight
smooth_with_markers
smooth
These can be specified at creation time via the C<add_chart()> Worksheet method:
my $chart = $workbook->add_chart(
type => 'scatter',
subtype => 'straight_with_markers'
);
=head1 EXAMPLE
Here is a complete example that demonstrates most of the available features when creating a chart.
#!/usr/bin/perl
use strict;
use warnings;
use Excel::Writer::XLSX;
my $workbook = Excel::Writer::XLSX->new( 'chart_scatter.xlsx' );
my $worksheet = $workbook->add_worksheet();
my $bold = $workbook->add_format( bold => 1 );
# Add the worksheet data that the charts will refer to.
my $headings = [ 'Number', 'Batch 1', 'Batch 2' ];
my $data = [
[ 2, 3, 4, 5, 6, 7 ],
[ 10, 40, 50, 20, 10, 50 ],
[ 30, 60, 70, 50, 40, 30 ],
];
$worksheet->write( 'A1', $headings, $bold );
$worksheet->write( 'A2', $data );
# Create a new chart object. In this case an embedded chart.
my $chart = $workbook->add_chart( type => 'scatter', embedded => 1 );
# Configure the first series.
$chart->add_series(
name => '=Sheet1!$B$1',
categories => '=Sheet1!$A$2:$A$7',
values => '=Sheet1!$B$2:$B$7',
);
# Configure second series. Note alternative use of array ref to define
# ranges: [ $sheetname, $row_start, $row_end, $col_start, $col_end ].
$chart->add_series(
name => '=Sheet1!$C$1',
categories => [ 'Sheet1', 1, 6, 0, 0 ],
values => [ 'Sheet1', 1, 6, 2, 2 ],
);
# Add a chart title and some axis labels.
$chart->set_title ( name => 'Results of sample analysis' );
$chart->set_x_axis( name => 'Test number' );
$chart->set_y_axis( name => 'Sample length (mm)' );
# Set an Excel chart style. Colors with white outline and shadow.
$chart->set_style( 10 );
# Insert the chart into the worksheet (with an offset).
$worksheet->insert_chart( 'D2', $chart, 25, 10 );
__END__
=begin html
<p>This will produce a chart that looks like this:</p>
<p><center><img src="http://jmcnamara.github.com/excel-writer-xlsx/images/examples/scatter1.jpg" width="483" height="291" alt="Chart example." /></center></p>
=end html
=head1 AUTHOR
John McNamara jmcnamara@cpan.org
=head1 COPYRIGHT
Copyright MM-MMXIII, John McNamara.
All Rights Reserved. This module is free software. It may be used, redistributed and/or modified under the same terms as Perl itself.